CN213406051U - Electrocardioelectrode piece and electrocardio monitoring devices - Google Patents

Abstract

The utility model belongs to the field of electrocardio measuring equipment, in particular to an electrocardioelectrode plate for sensing body electric signals and an electrocardio monitoring device, the electrocardioelectrode plate provided by the scheme adopts the extremely simple level design, and an input electrode, a lead and an output electrode are designed in the same electrode plate, thereby greatly reducing the volume and the complex circuit of the electrocardio measuring instrument; finally, the electrocardio monitoring device adopting the electrocardioelectrode plate can be well contacted with a human body, the human body does not feel uncomfortable in the movement process because of the electrode plate, and the electrode plate is not unsmooth in transmission because of the deformation of the human body.

Description

Electrocardioelectrode piece and electrocardio monitoring devices

Technical Field

The utility model belongs to electrocardio measuring equipment field, especially an electrocardioelectrode piece and electrocardio monitoring devices for responding to the health signal of telecommunication.

Background

With the development of the Chinese society and the improvement of the economic level, cardiovascular and cerebrovascular diseases quickly become one of the main diseases threatening the life and health of urban people. In 2018, the national cardiovascular disease center published Chinese cardiovascular disease reports 2017 (summary). According to the calculation, the number of cardiovascular diseases in China is 2.9 hundred million, and the death rate of cardiovascular diseases accounts for more than 40 percent of the death rate of resident diseases, and is higher than that of tumors and other diseases at the top. For patients with cardiovascular and cerebrovascular diseases, it is very important to detect the electrocardiosignals all the time so as to find abnormality in time and seek medical advice in time.

The conventional instant electrocardio detection equipment comprises a host machine, a lead wire and an electrode plate, wherein the electrode plate is a disposable article, and the host machine and the lead wire can be repeatedly used.

Typical conventional real-time electrocardiographic detection devices are disclosed in utility model patent No. CN200720125633.0, entitled "disposable electrode sheet type conventional electrocardiographic lead wire": a disposable electrode sheet type conventional electrocardiogram lead wire belongs to a lead wire for monitoring and tracing a conventional electrocardiogram, a cable (5) is connected with a shielding rubber line (3) through a fixed connection deconcentrator (4), the tail end of the shielding rubber line (3) is connected with a joint (1), and a working surface of the joint (1) is bonded with a disposable adhesive electrode (2). The utility model has the advantages that: with the clip formula among the prior art and inhale ball formula metal electrode, change disposable paste formula electrode slice into and effectively strengthen and guarantee the electrode and the stable contact of the position skin that corresponds, improved electrocardiographic examination's success rate and trace quality etc. change the continuous use of electrode into disposable back simultaneously, also accord with public health's requirement, the utility model discloses the structure is simple and convenient effective, easy to carry out. The structure is shown in fig. 1.

However, the normal electrocardiogram can only record the heart electrical activity within a certain short time, and the abnormal condition of the heart is often paroxysmal, transient or sporadic. That is, when a person's heart is abnormal, even if he goes to the hospital for examination immediately, the short static electrocardiogram of ten seconds is often unable to capture the abnormal condition, so it is necessary to monitor the heart for 24 hours or even 48 hours continuously.

Therefore, a dynamic electrocardiogram detection device has come into play, which can detect 24 or even 48 hours of electrocardiosignals.

Typical electrocardiographic devices are disclosed in the utility model patent No. CN94213324.2 entitled "standard 12-lead instantaneous electrocardiograph": the standard 12-lead instantaneous dynamic electrocardiograph consists of casing, printer on the casing, playback machine with operation keyboard, display and playback circuit, and electrocardiographic recording box with recording box circuit, and the playback machine and the recording box are connected via communication port. The playback circuit is a single-chip microcomputer circuit, and the recording box circuit is a single-chip microcomputer circuit containing acquisition, amplification, analog-to-digital conversion and data storage. The playback machine inputs initialization information to the recording box through a keyboard, a patient carries the recording box with him, after a key is pressed, the abnormal electrocardiosignals of 12 leads measured by the probe are recorded in the memory, and the signals are displayed or printed by the playback machine. The circuit structure is shown in fig. 2.

However, the dynamic electrocardiograph is large in size, and is inconvenient for a patient to carry on and completely incapable of moving or bathing. Therefore, a dynamic electrocardiograph structure with small volume and convenient carrying is needed.

Therefore, the invention also discloses a patch type dynamic electrocardiogram recorder, the structure of which is greatly reduced compared with the common electrocardiogram, and the portability of which is better. As disclosed in typical invention patents such as 201811082281.4 entitled "a patch-type dynamic electrocardiograph recorder": the utility model provides a SMD developments heart electrograph recorder, includes bottom subassembly and host computer, the bottom subassembly includes that detachable installs the bottom body on the host computer, locates the first circuit board on the bottom body, first circuit board includes first circuit board body and connects the three electrode holder on first circuit board body, and a disposable electrode piece is installed to detachable on every electrode holder. Install bottom body detachable on the host computer like this, set up the circuit board alone on the bottom surface of bottom body, separated the circuit board on with the host computer and the circuit board on the bottom body, make circuit and disposable electrode piece separately simultaneously, every detect a patient after, only need change install on the bottom body disposable electrode piece can, and this kind of disposable electrode piece one only need a few mao qian, for among the prior art greatly reduced the cost of disposable electrode piece. The structure of which can be seen in figure 3. In fig. 3, 102 denotes a patch-type ecg monitor, 1021 denotes a main body, and 1033 denotes an aperture on the main body.

However, most of the current wearable electrocardio-type breast patches are connected by electrode buttons, the electrode buttons are designed for large-scale medical equipment, the size of electrode plates matched with the wearable electrocardio-type breast patches is too large, when the wearable electrocardio-type breast patches are in single lead, the wearable electrocardio-type breast patches are small in size, patients can move, when a multi-lead structure appears, the electrode plates of the equipment are more, the patients cannot move conveniently, or do exercise or bath, and popularization of the medical products for potential patients is greatly hindered.

Therefore, it is necessary to design an electrode plate structure, which is light in structure, does not need an external connecting wire, does not affect daily work and life when patients are matched, and improves the comfort level of human body on the basis of confirming the performance of the electrode plate.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing an electrocardioelectrode piece and electrocardio monitoring devices, it can solve foretell problem.

The utility model discloses an electrocardioelectrode piece, including skin, inlayer and at least one electrode circuit, wherein the skin with the inlayer will the electrode circuit wraps up wherein, every electrode circuit includes input electrode, output electrode and wire, the input electrode with the one end of wire links to each other, output electrode with the other end of wire links to each other, input electrode with output electrode orientation is opposite; the outer layer is provided with output through holes with the same number as the output electrodes, and the positions of the output through holes correspond to the positions of the output electrodes; the inner layer is provided with input through holes with the same number as the input electrodes, the positions of the input through holes correspond to the positions of the input electrodes, the distance between the projection position of the input electrodes and the projection position of the output electrodes is greater than 12mm, and the outer layer, the inner layer and the electrode circuit are flexible; the projection area of the input through hole is larger than that of the input electrode; the projection area of the output through hole is larger than that of the output electrode.

The inner layer is directly contacted with the skin of a human body, the input electrode on the inner layer receives a bioelectricity signal of the human body and transmits the bioelectricity signal to the output electrode through a lead, and the output electrode is connected with the equipment host and transmits the bioelectricity signal to the host, so that the electrocardiosignal of the human body is sensed. The structure concentrates the input electrode, the output electrode and the lead in a lamellar structure, greatly simplifies the prior electrode slice, ensures that the electrode slice can be very thin and can be correspondingly deformed according to the movement of people. Meanwhile, it should be noted that the inner layer material needs to be selected from PU, PCL or similar biocompatible materials with certain mechanical flexibility.

How to connect and realize switching on with input electrode, output electrode with wire for electrocardioelectrode piece, all are not the key point of this patent protection, and have existed the scheme that can realize among the prior art, so no longer give unnecessary details in this patent.

The utility model discloses a further technical scheme is: the conductive gel is arranged in the input through hole and connected with the input electrode. The conductive gel can be hydrogel or other semisolid gel.

The utility model discloses a further technical scheme is: the projection of the conductive gel coincides with the projection of the input via. Through the overflowing filling, the conductive gel is better contacted with the skin and the input electrode, and the electric signal receiving is realized.

The utility model discloses a further technical scheme is: the outer layer comprises a film covering layer and a host layer, the total projected area of the film covering layer and the host layer is the same as the projected area of the inner layer, and the output through holes are all arranged on the host layer; the film coating layer and the host layer are mutually connected and are connected with the inner layer; or: the film coating layer and the host layer are respectively connected with the inner layer, and the film coating layer and the host layer are not connected with each other. The area of the equipment main machine is smaller than that of the electrode plate, and the main machine is of a hard material structure, so that the main machine is only connected with the main machine layer, and the other positions are provided with the film coating layers. The host layer can be made into a structure connected with the film coating layer, or can be two independent structures which are connected with the inner layer together. According to the convenience degree of processing, the selection can be carried out by self.

The utility model discloses a further technical scheme is: the host layer is provided with a first adhesive layer or the host layer is provided with viscosity from top to bottom. The purpose of the adhesive layer is to facilitate the fixation with the host, but it should be noted that the adhesive layer is not necessarily provided, and the host layer can be connected by other means, such as magnetism, etc. The host machine layer can be independently coated with a layer of double-sided adhesive tape, and the host machine layer can be the double-sided adhesive tape.

The utility model discloses a further technical scheme is: conductive particles are further arranged and arranged on the output electrode, and the shape of the conductive particles is the same as that of the output through hole. Because of the existence of the host layer, poor contact may exist between the output electrode and the host, so that conductive particles are additionally added to ensure smooth connection between the output electrode and the host. The conductive particles can be any material having conductive properties, such as metal blocks, multi-layered metal cloths, conductive glues, and the like.

The utility model discloses a further technical scheme is: the electrode circuit is provided with a bend, and the circuit directions of two ends of the bend are opposite. Because the direction of the input electrode is opposite to that of the output electrode, a structure is needed to be arranged so that the direction of the lead is changed, and one possible mode is that the lead is bent (namely, the lead structure rotates), and the electrodes can be made to be conductive up and down and can be selected according to the needs.

The utility model discloses a further technical scheme is: the bend is disposed on the output electrode. The output electrode can be made into a two-sided structure, the middle of the output electrode is bent, and the two ends of the output electrode are bonded together.

The utility model discloses a further technical scheme is: the inner layer is provided with a second adhesive layer connected with the output electrodes, the number of the second adhesive layers is the same as that of the output electrodes, and the projections of the second adhesive layers coincide with the output electrodes. The addition of the second adhesive layer can ensure the stability of the position of the output electrode.

The utility model discloses a further technical scheme is: separable being equipped with on the host computer layer is first from type membrane, it is first from type membrane and is in projection on the host computer layer covers completely the host computer layer. Because can glue (first viscose layer) on the host computer layer, consequently for convenient to use, can add a rete on first viscose layer, tear this layer of structure earlier when using.

The utility model discloses a further technical scheme is: the inner layer is provided with a third adhesive layer, the third adhesive layer is provided with a second release film in a separable mode, and the second release film is in projection on the inner layer completely covers the inner layer. The inner layer is directly connected with a human body, a third adhesive layer can be added for increasing the firmness of connection between the inner layer and the human body, and meanwhile, in order to facilitate attachment, the third adhesive layer is attached to the second release film when the inner layer is not used.

The utility model discloses a further technical scheme is: the electrocardioelectrode piece is also detachably provided with a third release film, the third release film is of a hollow structure, and the inner side of the third release film is partially overlapped with the inner layer. Because the electrode slice of this scheme has certain flexibility, probably there is the condition that the electrode slice bends after tearing first, two from the type membrane, inconvenient and skin are attached, simultaneously, tear the whole inlayer in back with the second from the type membrane and all have the viscose, do not have the place that conveniently holds in hand, consequently increased the third from the type membrane. When the electrode plate sticking device is used, the first release film and the second release film are torn, the third release film is held by a hand, the third release film has certain mechanical strength, the electrode plate can be kept not to be bent, and after the electrode plate is stuck, the third release film is torn again, so that the whole work of sticking the electrode plate is completed.

The utility model discloses a further technical scheme is: the length-width ratio of the electrocardioelectrode slice is larger than 2. The design of the strip shape can ensure the distance between the input electrode and the output electrode and has the smallest volume, thereby having the least influence on the wearer.

The utility model discloses simultaneously disclose an electrocardio monitoring devices, including the host computer, like before electrocardio electrode piece, the host computer with the separable linking to each other of electrocardio electrode piece, be equipped with at least one response electrode on the host computer, response electrode with the last output electrode one-to-one of electrocardio electrode piece. The host is connected with the host layer, and the induction electrode on the host is connected with the output electrode to realize the transmission of electric signals.

The electrocardio monitoring devices in the scheme comprise a host and electrocardioelectrode plates, so that the size of the traditional electrocardiograph is greatly reduced, and the wearing is easier. Meanwhile, the electrode plate is light and thin enough, so that a user cannot feel foreign body when wearing the electrode plate. Furthermore, because the electrode slice has stretching and flexibility properties, the electrode slice can deform along with the human body, the human body does not feel uncomfortable in the movement process because of the electrode slice, and the electrode slice does not transfer unsmoothly because of the deformation of the human body.

The utility model discloses a further technical scheme is: the induction electrode has magnetism. Through setting up magnetism for induction electrode is better and output electrode location and be connected.

The utility model has the advantages that: the electrocardioelectrode slice provided by the scheme adopts a very simple level design, and the input electrode, the lead and the output electrode are designed in the same electrode slice, so that the volume and the complex circuit of the electrocardio measuring instrument are greatly reduced. Finally, the electrocardio monitoring device adopting the electrocardioelectrode plate can be well contacted with a human body, the human body does not feel uncomfortable in the movement process because of the electrode plate, and the electrode plate is not unsmooth in transmission because of the deformation of the human body.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic diagram of an electrocardiograph detection apparatus provided in prior art 1.

Fig. 2 is a schematic diagram of an electrocardiograph detection apparatus provided in prior art 2.

Fig. 3 is a schematic diagram of an electrocardiograph detection apparatus provided in prior art 3.

Fig. 4 is an exploded view of the electrocardioelectrode plate provided in embodiment 1 of the present invention.

Fig. 5 is a schematic view of an electrocardioelectrode plate provided in embodiment 1 of the present invention.

Legend: 1-a linker; 2-paste electricity once; 3-a shielding glue line; 4-a splitter; 5-a cable; 102-a patch type dynamic electrocardiogram recorder; 1021-a body; 1033-aperture on host; 11-a film coating layer; 12-an electrode line; 121-output electrode; 122-a wire; 123-input electrodes; 13-an inner layer; 131-input via; 132-a second adhesive layer; 14-conductive gel; 15-conductive particles; 16-a host layer; 161-output vias; 17-a first release film; 18-a second release film; 19-third release film.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Furthermore, the following description of the various embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced. Directional phrases used in this disclosure, such as "upper," "lower," "front," "rear," "left," "right," "inner," "outer," "side," and the like, refer only to the orientation of the attached drawing figures and, thus, are used in a better and clearer sense to describe and understand the present invention rather than to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered limiting of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified. In the present specification, the term "step" is used to mean not only an independent step but also an independent step unless clearly distinguished from other steps, as long as the intended function of the step is achieved. In the present specification, the numerical range represented by "to" means a range including numerical values before and after "to" as a minimum value and a maximum value, respectively. In the drawings, structures that are similar or identical are denoted by the same reference numerals.

The utility model provides an electrode slice device. The present invention will be described in detail with reference to fig. 4 and 5 and the embodiments.

The specific embodiment firstly discloses an electrocardioelectrode sheet, which has a structure shown in fig. 4 and 5 and comprises an outer layer, an inner layer 13 and at least one electrode circuit 12, wherein the outer layer and the inner layer wrap the electrode circuits, each electrode circuit comprises an input electrode 123, an output electrode 121 and a lead 122, the input electrode is connected with one end of the lead, the output electrode is connected with the other end of the lead, and the directions of the input electrode and the output electrode are opposite; the outer layer is provided with output through holes 161 with the same number as the output electrodes, and the positions of the output through holes correspond to the positions of the output electrodes; the inner layer is provided with input through holes 131 the same as the input electrodes in number, the positions of the input through holes correspond to the positions of the input electrodes, the distance between the projection position of the input electrodes and the projection position of the output electrodes is greater than 12mm, and the outer layer, the inner layer and the electrode circuit are flexible; the projection area of the input through hole is larger than that of the input electrode; the projection area of the output through hole is larger than that of the output electrode.

In the present embodiment, since the electrocardiograph is a single-conduction electrocardiograph, only 3 pairs of electrodes are designed, but it is anticipated that one skilled in the art can increase the number of pairs of electrodes as needed.

The inner layer is directly contacted with the skin of a human body, the input electrode on the inner layer receives a bioelectricity signal of the human body and transmits the bioelectricity signal to the output electrode through a lead, and the output electrode is connected with the equipment host and transmits the bioelectricity signal to the host, so that the electrocardiosignal of the human body is sensed. The structure concentrates the input electrode, the output electrode and the lead in a lamellar structure, greatly simplifies the prior electrode slice, ensures that the electrode slice can be very thin and can be correspondingly deformed according to the movement of people. Meanwhile, it should be noted that the inner layer material needs to be selected from PU, PCL or similar biocompatible materials with certain mechanical flexibility. In this embodiment, the inner layer is made of PU.

How to connect and realize switching on with input electrode, output electrode with wire for electrocardioelectrode piece, all are not the key point of this patent protection, and have existed the scheme that can realize among the prior art, so no longer give unnecessary details in this patent.

Further: and a conductive gel 14 is also arranged, arranged in the input through hole and connected with the input electrode. The conductive gel can be hydrogel or other semisolid gel.

Further: the projection of the conductive gel coincides with the projection of the input via. Through the overflowing filling, the conductive gel is better contacted with the skin and the input electrode, and the electric signal receiving is realized.

Further: the outer layer comprises a film coating layer 11 and a host layer 16, the total projected area of the film coating layer and the host layer is the same as the projected area of the inner layer, and the output through holes are all arranged on the host layer; the film coating layer and the host layer are mutually connected and are connected with the inner layer; or: the film coating layer and the host layer are respectively connected with the inner layer, and the film coating layer and the host layer are not connected with each other. The area of the equipment main machine is smaller than that of the electrode plate, and the main machine is of a hard material structure, so that the main machine is only connected with the main machine layer, and the other positions are provided with the film coating layers. The host layer can be made into a structure connected with the film coating layer, or can be two independent structures which are connected with the inner layer together. According to the convenience degree of processing, the selection can be carried out by self.

Further: the host layer is provided with a first adhesive layer or the host layer is provided with viscosity from top to bottom. The purpose of the adhesive layer is to facilitate the fixation with the host, but it should be noted that the adhesive layer is not necessarily provided, and the host layer can be connected by other means, such as magnetism, etc. The host machine layer can be independently coated with a layer of double-sided adhesive tape, and the host machine layer can be the double-sided adhesive tape.

In this embodiment, the host layer itself is a double-sided adhesive structure.

Further: conductive particles 15 are also provided, the conductive particles being disposed over the output electrode, the conductive particles being shaped the same as the output through holes. Because of the existence of the host layer, poor contact may exist between the output electrode and the host, so that conductive particles are additionally added to ensure smooth connection between the output electrode and the host. The conductive particles can be any material having conductive properties, such as metal blocks, multi-layered metal cloths, conductive glues, and the like. The conductive particles, although named as particles, do not necessarily have a particle structure, and in the present embodiment, the conductive particles are a sheet structure stacked in the output via. And it has a certain flexibility so that it can be better connected with the output electrode and the host.

Further: the electrode circuit is provided with a bend, and the circuit directions of two ends of the bend are opposite. Because the direction of the input electrode is opposite to that of the output electrode, a structure is needed to be arranged so that the direction of the lead is changed, and one possible mode is that the lead is bent (namely, the lead structure rotates), and the electrodes can be made to be conductive up and down and can be selected according to the needs.

Further: the bend is disposed on the output electrode. The output electrode can be made into a two-sided structure, the middle of the output electrode is bent, and the two ends of the output electrode are bonded together.

In the embodiment, the output electrode is bent, so that the upper and lower parts can conduct electricity.

Further: the inner layer is provided with a second adhesive layer connected with the output electrodes, the number of the second adhesive layers 132 is the same as that of the output electrodes, and the projection of the second adhesive layers is coincided with the output electrodes. The addition of the second adhesive layer can ensure the stability of the position of the output electrode.

Further: separable being equipped with on the host computer layer is first from type membrane 17, it is first from type membrane and is in projection on the host computer layer covers completely the host computer layer. Because can glue (first viscose layer) on the host computer layer, consequently for convenient to use, can add a rete on first viscose layer, tear this layer of structure earlier when using.

Further: a third adhesive layer is arranged below the inner layer, a second release film 18 is arranged below the third adhesive layer in a separable mode, and the projection of the second release film on the inner layer completely covers the inner layer. The inner layer is directly connected with a human body, a third adhesive layer can be added for increasing the firmness of connection between the inner layer and the human body, and meanwhile, in order to facilitate attachment, the third adhesive layer is attached to the second release film when the inner layer is not used.

Further: the electrocardioelectrode piece is also detachably provided with a third release film 19 which is of a hollow structure, and the inner side of the third release film is partially overlapped with the inner layer. Because the electrode slice of this scheme has certain flexibility, probably there is the condition that the electrode slice bends after tearing first, two from the type membrane, inconvenient and skin are attached, simultaneously, tear the whole inlayer in back with the second from the type membrane and all have the viscose, do not have the place that conveniently holds in hand, consequently increased the third from the type membrane. When the electrode plate sticking device is used, the first release film and the second release film are torn, the third release film is held by a hand, the third release film has certain mechanical strength, the electrode plate can be kept not to be bent, and after the electrode plate is stuck, the third release film is torn again, so that the whole work of sticking the electrode plate is completed.

Further: the length-width ratio of the electrocardioelectrode slice is larger than 2. The design of the strip shape can ensure the distance between the input electrode and the output electrode and has the smallest volume, thereby having the least influence on the wearer.

In this embodiment, the entire electrocardioelectrode plate is a strip, which is slightly wider at the position of the main machine and narrower at the position of the lead. The electrode plates of the scheme are not regular patterns, but are as small as possible under the condition of meeting the functions.

The utility model discloses simultaneously disclose an electrocardio monitoring devices, including the host computer, like before electrocardio electrode piece, the host computer with the separable linking to each other of electrocardio electrode piece, be equipped with at least one response electrode on the host computer, response electrode with the last output electrode one-to-one of electrocardio electrode piece. The host is connected with the host layer, and the induction electrode on the host is connected with the output electrode to realize the transmission of electric signals.

The electrocardio monitoring devices in the scheme comprise a host and electrocardioelectrode plates, so that the size of the traditional electrocardiograph is greatly reduced, and the wearing is easier. Meanwhile, the electrode plate is light and thin enough, so that a user cannot feel foreign body when wearing the electrode plate. Furthermore, because the electrode slice has stretching and flexibility properties, the electrode slice can deform along with the human body, the human body does not feel uncomfortable in the movement process because of the electrode slice, and the electrode slice does not transfer unsmoothly because of the deformation of the human body.

Further: the induction electrode has magnetism. Through setting up magnetism for induction electrode is better and output electrode location and be connected.

The utility model has the advantages that: the electrocardioelectrode slice provided by the scheme adopts a very simple level design, and the input electrode, the lead and the output electrode are designed in the same electrode slice, so that the volume and the complex circuit of the electrocardio measuring instrument are greatly reduced. Finally, the electrocardio monitoring device adopting the electrocardioelectrode plate can be well contacted with a human body, the human body does not feel uncomfortable in the movement process because of the electrode plate, and the electrode plate is not unsmooth in transmission because of the deformation of the human body.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (16)

1. An electrocardioelectrode piece which is characterized in that: the electrode comprises an outer layer, an inner layer and at least one electrode circuit, wherein the outer layer and the inner layer wrap the electrode circuits, each electrode circuit comprises an input electrode, an output electrode and a lead, the input electrode is connected with one end of the lead, the output electrode is connected with the other end of the lead, and the directions of the input electrode and the output electrode are opposite; the outer layer is provided with output through holes with the same number as the output electrodes, and the positions of the output through holes correspond to the positions of the output electrodes; the inner layer is provided with input through holes with the same number as the input electrodes, the positions of the input through holes correspond to the positions of the input electrodes, the distance between the projection position of the input electrodes and the projection position of the output electrodes is greater than 12mm, and the outer layer, the inner layer and the electrode circuit are flexible; the projection area of the input through hole is larger than that of the input electrode; the projection area of the output through hole is larger than that of the output electrode.

2. The electrocardioelectrode sheet of claim 1, wherein: the conductive gel is arranged in the input through hole and connected with the input electrode.

3. The electrocardioelectrode sheet of claim 2, wherein: the projection of the conductive gel coincides with the projection of the input via.

4. The electrocardioelectrode sheet of claim 1, wherein: the outer layer comprises a film covering layer and a host layer, the total projected area of the film covering layer and the host layer is the same as the projected area of the inner layer, and the output through holes are all arranged on the host layer; the film coating layer and the host layer are mutually connected and are connected with the inner layer; or: the film coating layer and the host layer are respectively connected with the inner layer, and the film coating layer and the host layer are not connected with each other.

5. The electrocardioelectrode sheet of claim 4, wherein: the host machine layer is provided with a first adhesive layer.

6. The electrocardioelectrode sheet of claim 4, wherein: the host layer has a viscosity on both the top and bottom.

7. The electrocardioelectrode sheet according to any one of claims 1 to 6, wherein: conductive particles are further arranged and arranged on the output electrode, and the shape of the conductive particles is the same as that of the output through hole.

8. The electrocardioelectrode sheet of claim 1, wherein: the electrode circuit is provided with a bend, and the circuit directions of two ends of the bend are opposite.

9. The electrocardioelectrode sheet of claim 8, wherein: the bend is disposed on the output electrode.

10. The electrocardioelectrode sheet according to any one of claims 1 to 6, wherein: the inner layer is provided with a second adhesive layer connected with the output electrodes, the number of the second adhesive layers is the same as that of the output electrodes, and the projections of the second adhesive layers coincide with the output electrodes.

11. The electrocardioelectrode sheet according to any one of claims 4 to 6, wherein: separable being equipped with on the host computer layer is first from type membrane, it is first from type membrane and is in projection on the host computer layer covers completely the host computer layer.

12. The electrocardioelectrode sheet according to any one of claims 1 to 6, wherein: the inner layer is provided with a third adhesive layer, the third adhesive layer is provided with a second release film in a separable mode, and the second release film is in projection on the inner layer completely covers the inner layer.

13. The electrocardioelectrode sheet according to any one of claims 1 to 6, wherein: the electrocardioelectrode piece is also detachably provided with a third release film, the third release film is of a hollow structure, and the inner side of the third release film is partially overlapped with the inner layer.

14. The electrocardioelectrode sheet according to any one of claims 1 to 6, wherein: the length-width ratio of the electrocardioelectrode slice is larger than 2.

15. An electrocardio monitoring devices which characterized in that: the electrocardio-electrode plate comprises a host machine and the electrocardio-electrode plate as claimed in any one of claims 1 to 10, wherein the host machine is detachably connected with the electrocardio-electrode plate, at least one induction electrode is arranged on the host machine, and the induction electrodes are in one-to-one correspondence with output electrodes on the electrocardio-electrode plate.

16. The electrocardiograph monitoring device of claim 15, wherein: the induction electrode has magnetism.

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